索马里越赤道气流变化及对7~9月副高位置的影响

通过分析索马里越赤道气流的变化特征及其对7-9月副高脊线位置的影响关系,结果表明：（1）在近44年来冬、夏季索马里越赤道气流强度都呈增强趋势,具有南北半球气流交换越来越激烈之事实;（2）5月索马里越赤道气流对7-9月环流影响关系最好,与副高脊线位置的影响呈正相关关系;（3）2005年诊断与实况相符。     

河北省张家口金矿集区同位素及包裹体地质特征

张家口地区是我国重要的金矿集中区之一.自上世纪80年代以来,在崇礼县-赤城县毗邻地段的大型偏碱性二长岩杂岩体及其太古界中深变质岩系中,相继发现金矿田三个,探明金矿储量近100t.通过对该金矿集中区各类型矿床的大量同位素以及包裹体地质特征的研究,对该区金矿的成矿物质来源、矿床成因进行了探讨,这对于该区今后的金矿找矿工作具有实质性的指导意义.     

唐古拉山地区三叠纪层序地层分析及构造演化

三叠纪充填的一套碳酸盐岩—碎屑岩地层,被划分为两个超层序和5个层序单元。超层序Ⅰ以复理石建造为特征,是金沙江缝合带初始碰撞作用的产物,是唐古拉山地区三叠纪前陆盆地早期挠曲沉降构造活动的沉积响应,标志着晚三叠世诺利期前陆盆地业已形成;超层序Ⅱ以磨拉石与酸性火山岩建造为特征,是前陆盆地晚期冲断抬升构造演化的沉积响应,表明晚三叠世瑞替期来自造山带的沉积物开始越过前陆隆起向隆后盆地迁移。     

圈Cn的自同构群

一个图的自同构群通常反映了该图的对称性，讨论一个图的自同构群构造是代数图论中的基本问题之一。直观上可以看出，圈Cn的自同构群是2n阶的，但对于其具体构造目前还没有形式化的证明。作者基于群作用的思想，利用群的轨道方程对此问题研究，得出Cn的自同构群是一个二面体群的结论。通过严格的推证，表明该结论是可靠的。     

基于Web Service的Web地图服务设计与实践

集成和互操作一直是GIS发展的热点问题,而在互联网时代背景下产生的Web服务(Web Service)技术为GIS的集成和互操作提供了全新的、有效的解决途径。在介绍和分析Web服务技术的基础上,提出并实践了一种将地图服务的基本功能包装成Web服务进行发布的思路。通过将GIS的基本功能包装成Web服务,可以实现使用一种标准的协议来实现各GIS应用系统的交互和集成,屏蔽了系统间软、硬件平台的不同。     

塔克拉玛干沙漠石油公路沿线风沙活动的气候环境

塔克拉玛干沙漠石油公路沿线风沙活动是由塔木盆地内热能释放与冷空气入侵相互作用的结果。冷期,盆地内冷高压逆温作用较强,地面热能不足,使得风力和风沙活动强度弱;暖期,盆地内热源剧增,每当热能源饱和遇到冷空气入侵诱导,导致了强风及强风沙活动天气。可见,区内风沙活动及风成景观的塑造过程,主要是在暖干期进行的。     

河南嵩山区震旦系古构造型式

引言前人对本区震旦系的研究多侧重地层的划分和对比,而对其构造则重视不够。作者等虽多年来着重研究本区的构造形变史,但对震旦系构造特征的认识,长期以来只看到一些表面现象,而对其本质的认识则经历了一个不断反复和深化的过程。首先是震旦系和寒武系的接触关系,在豫西、华北乃至中国东部,它们之间都主要是假整合的平行接触关系,也就是在震旦纪末波状运动基础上,寒武纪海浸超覆。     

新沂球粒陨石的物质组成和结构

新沂球粒陨石,为江苏省新沂县城岗公社徐庄村一社员在其家菜园附近所发现,降落时间不详。该标本经江苏省地质局第五地质队黄堂发同志初步鉴定,推断其为陨石,后送交中国科学院地质研究所。我们对此陨石的矿物组成、化学成分、球粒结构等进行了初步研究,下面作一简述。     

NEAR-FAULT DISPLACEMENT AND DEFORMATION OBTAINED FROM ONE-KILOMETER-LONG FAULT-CROSSING BASELINE MEASUREMENTS-A PRELIMINARY EXPERIMENT AT 2 SITES ON THE EASTERN BOUNDARY OF THE SICHUAN-YUNNAN BLOCK

The current and conventional fault-crossing short baseline measurement has a relatively high precision, but its measurement arrays usually fail to or cannot completely span major active fault zones due to the short length of the baselines, which are only tens to 100 meters. GNSS measurement has relatively low resolution on near-fault deformation and hence is not suitable for monitoring those faults with low motion and deformation rates, due to sparse stations and relatively low accuracy of the GNSS observation. We recently built up two experimental sites on the eastern boundary of the active Sichuan-Yunnan block, one crossing the Daqing section of the Zemuhe Fault and the other crossing the Longshu section of the Zhaotong Fault, aiming to test the measurement of near-fault motion and deformation by using fault-crossing arrays of one-kilometer-long baselines. In this paper, from a three-year-long data set we firstly introduce the selection of the sites and the methods of the measurement. We then calculate and analyze the near-field displacement and strain of the two sites by using three hypothetical models, the rigid body, elastic and composed models, proposed by previous researchers. In the rigid body model, we assume that an observed fault is located between two rigid blocks and the observed variances in baseline lengths result from the relative motion of the blocks. In the elastic model, we assume that a fault deforms uniformly within the fault zone over which a baseline array spans, and in the array baselines in different directions may play roles as strainmeters whose observations allow us to calculate three components of near-fault horizontal strain. In the composed model, we assume that both displacement and strain are accumulated within the fault zone that a baseline array spans, and both contribute to the observed variances in baseline lengths. Our results show that, from the rigid body model, variations in horizontal fault-parallel displacement component of the Zemuhe Fault at the Daqing site fluctuate within 3mm without obvious tendencies. The displacement variation in the fault-normal component keeps dropping in 2015 and 2016 with a cumulative decrease of 6mm, reflecting transverse horizontal compression, and it turns to rise slightly(suggesting extension)in 2017. From the elastic model, the variation in horizontal fault-normal strain component of the fault at Daqing shows mainly compression, with an annual variation close to 10^-5, and variations in the other two strain components are at the order of 10^-6. For the Longshu Fault, the rigid-body displacement of the fault varies totally within a few millimeters, but shows a dextral strike-slip tendency that is consistent with the fault motion known from geological investigation, and the observed dextral-slip rate is about 0.7mm/a on average. The fault-parallel strain component of the Longshu Fault is compressional within 2×10^-6, and the fault-normal strain component is mainly extensional. Restricted by the assumption of rigid-body model, we have to ignore homolateral deformation on either side of an observed fault and attribute such deformation to the fault displacement, resulting in an upper limit estimate of the fault displacement. The elastic model emphasizes more the deformation on an observed fault zone and may give us information about localizations of near-fault strain. The results of the two sites from the composed model suggest that it needs caution when using this model due to that big uncertainty would be introduced in solving relevant equations. Level surveying has also been carried out at the meantime at the two sites. The leveling series of the Daqing site fluctuates within 4mm and shows no tendency, meaning little vertical component of fault motion has been observed at this site; while, from the rigid-body model, the fault-normal motion shows transverse-horizontal compression of up to 6mm, indicating that the motion of the Zemuhe Fault at Daqing is dominantly horizontal. The leveling series of the Longshu site shows a variation with amplitude comparable with that observed from the baseline series here, suggesting a minor component of thrust faulting; while the baseline series of the same site do not present tendencies of fault-normal displacement. Since the steep-dip faults at the two sites are dominantly strike-slip in geological time scale, we ignore probable vertical movement temporarily. In addition, lengths of homolateral baselines on either side of the faults change somewhat over time, and this makes us consider the existence of minor faults on either side of the main faults. These probable minor faults may not reach to the surface and have not been identified through geological mapping; they might result in the observed variances in lengths of homolateral baselines, fortunately such variations are small relative to those in fault-crossing baselines. In summary, the fault-crossing measurement using arrays with one-kilometer-long baselines provides us information about near-fault movement and strain, and has a slightly higher resolution relative to current GNSS observation at similar time and space scales, and therefore this geodetic technology will be used until GNSS networks with dense near-fault stations are available in the future.     

Impacts of salinity parameterizations on temperature simulation over and in a hypersaline lake

In this paper,we introduced parameterizations of the salinity effects(on heat capacity,thermal conductivity,freezing point and saturated vapor pressure) in a lake scheme integrated in the Weather Research and Forecasting model coupled with the Community Land Model(WRF-CLM). This was done to improve temperature simulation over and in a saline lake and to test the contributions of salinity effects on various water properties via sensitivity experiments. The modified lake scheme consists of the lake module in the CLM model,which is the land component of the WRF-CLM model. The Great Salt Lake(GSL) in the USA was selected as the study area. The simulation was performed from September 3,2001 to September 30,2002. Our results show that the modif ied WRF-CLM model that includes the lake scheme considering salinity effects can reasonably simulate temperature over and in the GSL. This model had much greater accuracy than neglecting salinity effects,particularly in a very cold event when that effect alters the freezing point. The salinity effect on saturated vapor pressure can reduce latent heat flux over the lake and make it slightly warmer. The salinity effect on heat capacity can also make lake temperature prone to changes. However,the salinity effect on thermal conductivity was found insignificant in our simulations.